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Decolorization of textile azo dye Novacron Red using bacterial monoculture and consortium: Response surface methodology optimization
The present study was intended toward the optimization of a textile dye Novacron Red decolorization by single and mixed culture of Bacillus strains namely, B. firmus, B. filamentosus and B. subterraneus. Optimization of dye decolorization using Bacillus monocultures was conducted using central composite design. The maximum dye decolorization achieved under optimized conditions for B. firmus, B. filamentosus and B. subterraneus was 89.24%, 88.28% and 88.45%, respectively. The effect of various consortia of selected Bacillus strains on dye removal was evaluated by applying a mixture design. The best dye (100 mg/L) decolorization yield (84%) was achieved using the consortium of B. filamentosus and B. subetrraneus.The Fourier Transform Infrared Spectroscopy analyses confirmed biodegradation potential of the two Bacillus strains. The results highlighted the potential of mono‐ and co‐cultures of Bacillus strains for application in textile wastewater treatment. Novel dye‐decolorizing Bacillus strains were isolated from marine sediment. Optimization of decolorization was conducted using response surface methodology. Efficient decolorization of textile dye by Bacillus strains on mono‐ and co‐cultures. The efficiency of the consortium B. filamentosus and B. subetrraneus on dye removal.
Decolorization of textile azo dye Novacron Red using bacterial monoculture and consortium: Response surface methodology optimization
The present study was intended toward the optimization of a textile dye Novacron Red decolorization by single and mixed culture of Bacillus strains namely, B. firmus, B. filamentosus and B. subterraneus. Optimization of dye decolorization using Bacillus monocultures was conducted using central composite design. The maximum dye decolorization achieved under optimized conditions for B. firmus, B. filamentosus and B. subterraneus was 89.24%, 88.28% and 88.45%, respectively. The effect of various consortia of selected Bacillus strains on dye removal was evaluated by applying a mixture design. The best dye (100 mg/L) decolorization yield (84%) was achieved using the consortium of B. filamentosus and B. subetrraneus.The Fourier Transform Infrared Spectroscopy analyses confirmed biodegradation potential of the two Bacillus strains. The results highlighted the potential of mono‐ and co‐cultures of Bacillus strains for application in textile wastewater treatment. Novel dye‐decolorizing Bacillus strains were isolated from marine sediment. Optimization of decolorization was conducted using response surface methodology. Efficient decolorization of textile dye by Bacillus strains on mono‐ and co‐cultures. The efficiency of the consortium B. filamentosus and B. subetrraneus on dye removal.
Decolorization of textile azo dye Novacron Red using bacterial monoculture and consortium: Response surface methodology optimization
Guembri, Marwa (author) / Neifar, Mohamed (author) / Saidi, Mouna (author) / Ferjani, Raoudha (author) / Chouchane, Habib (author) / Mosbah, Amor (author) / Cherif, Ameur (author) / Saidi, Neila (author) / Ouzari, Hadda Imene (author)
Water Environment Research ; 93 ; 1346-1360
2021-08-01
15 pages
Article (Journal)
Electronic Resource
English
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